A new planet-hunting survey has revealed that these planetary candidates, if confirmed, would be among the closest planets to their stars discovered so far. (Agencies)
Most gas giant exoplanets with orbital periods less than or equal to a few days are unstable. This is due to decay in their orbits caused by the effects of their star's proximity.
For rocky or icy planets, this disruption could bring them close enough to the star that the force of their own gravity can no longer hold them together in the face of the star's gravity.
Motivated by these considerations, researchers conducted a search for very short-period transiting objects in the publicly available Kepler dataset.
Their preliminary survey revealed about a half dozen planetary candidates, all with periods less than 12 hours.
Even with masses of only a few times that of Earth, the short periods mean they might be detectable by currently operating ground-based facilities.
If confirmed, these planets would be among the shortest-period planets ever discovered, researchers said.
Brian Jackson of the Carnegie Institution for Science's Department of Terrestrial Magnetism presented the findings, based on data from NASA's Kepler mission, at the American Astronomical Society's Division of Planetary Sciences meeting.
In his presentation, Jackson described the survey, what has been learned about the candidates from Kepler data, and the team's plans for follow-up observations.
Researchers had recently discovered an Earth-sized exoplanet, named Kepler 78b, 700 light-years away that whips around its host star in a mere 8.5 hours - one of the shortest orbital periods ever detected.
A new planet-hunting survey has revealed that these planetary candidates, if confirmed, would be among the closest planets to their stars discovered so far.